Method and system for filtering thermal image data

1. A method for filtering thermal image data, the method comprising: capturing thermal image data by a thermal image detector; forming a signal distribution of intensity values from the thermal image data; identifying a first part in the signal distribution of intensity values, the first part being a peak having an intensity width equal to or smaller than a predetermined intensity span being based on a resolution parameter of the thermal image detector; identifying a second part of the signal distribution of intensity values, the second part having an intensity width larger than the predetermined intensity span; determining an intensity range between the first part and the second part; and filtering, if the intensity range is larger than a predetermined minimum intensity range, the thermal image data by excluding thermal image data forming part of the first part in the signal distribution of intensity values.

2. The method according to claim 1 , wherein the predetermined minimum intensity range is based on a signal strength response parameter of the thermal image detector.

3. The method according to claim 1 , the method further comprising: forming a second signal distribution of intensity values from the filtered thermal image data; rescaling the filtered thermal image data; and forming a third signal distribution of intensity values from the rescaled filtered thermal image data, the third signal distribution of intensity values spanning an intensity level range larger than an intensity level range of the second signal distribution of intensity values.

4. The method according to claim 2 , wherein the signal strength response parameter is temperature dependent, and wherein the method further comprises: determining a temperature of the thermal image detector; and setting the predetermined minimum intensity range based on the determined temperature of the thermal image detector.

5. The method according to claim 1 , wherein the resolution parameter is temperature dependent, and wherein the method further comprises: determining a temperature of the thermal image detector; and setting the predetermined intensity span based on the determined temperature of the thermal image detector.

6. The method according to claim 1 , wherein the predetermined intensity span is a predetermined multiple of the resolution parameter.

7. The method according to claim 1 , wherein the intensity width of the first part is equal to the width of the first part at a predetermined fraction of a maximum value of the first part.

8. The method according to claim 1 , wherein the resolution parameter is a signal-to-noise figure of the thermal image detector.

9. The method according to claim 1 , the method further comprising: identifying a further part in the signal distribution of intensity values, the further part being a further peak having an intensity width equal to or smaller than a further predetermined intensity span being based on the resolution parameter of the thermal image detector; determining a further intensity range between the second part and the further part; and filtering, if the further intensity range is larger than a further predetermined minimum intensity range, the thermal image data by excluding thermal image data forming part of the further part in the signal distribution of intensity values.

10. The method according to claim 1 , the method further comprising: generating an image based on the rescaled and/or filtered thermal image data.

11. The method according to claim 10 , wherein the method further comprises one or more acts chosen from the group consisting of: auto-gaining the rescaled and/or filtered thermal image data; and equalizing the rescaled and/or filtered thermal image data.

12. A system comprising: a thermal image detector configured to capture thermal image data; a circuitry configured to: form a signal distribution of intensity values from the thermal image data; identify a first part in the signal distribution of intensity values, the first part being a peak having an intensity width equal to or smaller than a predetermined intensity span being based on a resolution parameter of the thermal image detector; identify a second part of the signal distribution of intensity values, the second part having an intensity width larger than the predetermined intensity span; determine an intensity range between the first part and the second part; and filter, if the intensity range is larger than a predetermined minimum intensity range, the thermal image data by excluding thermal image data forming part of the first part in the signal distribution of intensity values.

13. The system according to claim 12 , wherein the predetermined minimum intensity range is based on a signal strength response parameter of the thermal image detector.

14. The system according to claim 12 , wherein the circuitry is further configured to: identify a further part in the signal distribution of intensity values, the further part being a further peak having an intensity width equal to or smaller than a further predetermined intensity span being based on a resolution parameter of the thermal image detector; determine a further intensity range between the second part and the further part; and filter, if the further intensity range is larger than a further predetermined minimum intensity range, the thermal image data by excluding thermal image data forming part of the further part in the signal distribution of intensity values.

15. A non-transitory computer readable storing medium including instructions which, when executed on a device having a processing capability, cause the device to execute instructions for filtering thermal image data, the instructions causing the device to perform operations comprising: capturing thermal image data by a thermal image detector; forming a signal distribution of intensity values from the thermal image data; identifying a first part in the signal distribution of intensity values, the first part being a peak having an intensity width equal to or smaller than a predetermined intensity span being based on a resolution parameter of the thermal image detector; identifying a second part of the signal distribution of intensity values, the second part having an intensity width larger than the predetermined intensity span; determining an intensity range between the first part and the second part; and filtering, if the intensity range is larger than a predetermined minimum intensity range, the thermal image data by excluding thermal image data forming part of the first part in the signal distribution of intensity values.